Department of Medicine IV, LMU University Hospital, LMU Munich, Ziemssenstraße 5, Munich 80336, Germany.
Department of Medicine IV, LMU University Hospital, LMU Munich, Ziemssenstraße 5, Munich 80336, Germany; Department of geriatric medicine, Gan Su provincial hospital, Dong Gang West Road 204, Lan Zhou 731100, China.
J Steroid Biochem Mol Biol. 2024 Nov;244:106610. doi: 10.1016/j.jsbmb.2024.106610. Epub 2024 Aug 28.
Cell culture experiments can support characterization of enzymatic activities in healthy and tumorous human tissues. Liquid chromatography coupled to tandem mass spectrometry (LC-MS/MS) enables simultaneous measurement of several steroids from a single sample, facilitating analysis of molecular pathways involved in steroid biosynthesis. We developed a reliable but fast method for quantification of cortisol, cortisone and aldosterone in cell culture supernatant. Validation, including investigation of matrix-matched calibration, was performed for two different cell types. Utility of the method was demonstrated in the study of 11β-hydroxysteroid dehydrogenase type 2 (HSD11B2) activity under conditions of glucocorticoid and mineralocorticoid excess in different cell types. Aldosterone, cortisol and cortisone were extracted by liquid-liquid extraction (LLE) with methyl tert-butyl ether from 1 mL of cell culture supernatant. Steroids were separated on a Kinetex biphenyl column (50 ×2.1 mm, 2.6 µm) with gradient elution of water and methanol containing 2 mM ammonium format and analysed in multiple reaction monitoring mode after positive electrospray ionization. Application of the method included cell culture experiments with two different primary cell types, human coronary artery smooth muscle cells (HCSMC) and human coronary artery endothelial cells (EC). Cells were treated with different concentrations of cortisol, aldosterone and mifepristone, a glucocorticoid receptor antagonist and quantitative PCR was performed. The method exhibits high precision (CV ≤ 6 %) and accuracy (deviation from nominal concentration ≤ 6 %) for concentrations above the limit of quantification (LoQ) which is 0.11, 0.56 and 0.69 nmol/L for aldosterone, cortisone and cortisol, respectively. Calibration curves did not differ when prepared in media or solvent. The method enabled us to confirm activity of HSD11B2 and concentration dependent conversion of cortisol to cortisone in HCSMC (median conversion ratio at 140 nM cortisol = 1.46 %). In contrast we did not observe any HSD11B2 activity in EC. Neither addition of high aldosterone, nor addition of 1 µM mifepristone had impact on glucocorticoid concentrations. Quantitative PCR revealed expression of HSD11B1 and HSD11B2 in HCSMC but not in EC. We present a fast and reliable method for quantification of cortisol, cortisone and aldosterone in cell culture supernatants. The method enabled us to study HSD11B2 activity in two different cell types and will support future experiments investigating mechanisms of target organ damage in conditions of glucocorticoid and mineralocorticoid excess.
细胞培养实验可以支持对健康和肿瘤人类组织中酶活性的特征描述。液相色谱-串联质谱联用 (LC-MS/MS) 能够从单个样品中同时测量几种类固醇,从而促进参与类固醇生物合成的分子途径的分析。我们开发了一种可靠但快速的方法,用于定量测定细胞培养上清液中的皮质醇、可的松和醛固酮。针对两种不同的细胞类型,进行了包括基质匹配校准在内的验证。该方法在研究不同细胞类型中糖皮质激素和盐皮质激素过量条件下 11β-羟甾类脱氢酶 2 (HSD11B2) 活性的研究中得到了证明。用甲基叔丁基醚从 1ml 细胞培养上清液中进行液-液萃取 (LLE) 提取醛固酮、皮质醇和可的松。类固醇在 Kinetex 联苯柱(50×2.1mm,2.6µm)上分离,水和甲醇梯度洗脱,含 2mM 甲酸铵,经正电喷雾电离后在多重反应监测模式下分析。该方法的应用包括两种不同原代细胞类型(人冠状动脉平滑肌细胞 [HCSMC] 和人冠状动脉内皮细胞 [EC])的细胞培养实验。用不同浓度的皮质醇、醛固酮和米非司酮处理细胞,并进行定量 PCR。对于高于定量限 (LoQ) 的浓度,该方法具有高精确度 (CV≤6%) 和准确性 (与名义浓度的偏差≤6%),LoQ 分别为 0.11、0.56 和 0.69nmol/L 用于醛固酮、可的松和皮质醇。当在培养基或溶剂中制备校准曲线时,它们没有差异。该方法使我们能够确认 HSD11B2 的活性以及皮质醇在 HCSMC 中的浓度依赖性向可的松的转化(皮质醇 140nM 时的中位数转化率为 1.46%)。相比之下,我们在 EC 中没有观察到任何 HSD11B2 活性。高浓度醛固酮的添加或 1µM 米非司酮的添加均未影响糖皮质激素浓度。定量 PCR 显示 HSD11B1 和 HSD11B2 在 HCSMC 中的表达,但在 EC 中没有表达。我们提出了一种快速可靠的方法,用于定量测定细胞培养上清液中的皮质醇、可的松和醛固酮。该方法使我们能够研究两种不同细胞类型中的 HSD11B2 活性,并将支持未来研究糖皮质激素和盐皮质激素过量条件下靶器官损伤机制的实验。
